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Determination of the Air Purification Efficiency when Using a Biofilter

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The work presents the results of experimental studies on the air purification efficiency after accelerated composting of a mixture of cattle manure and straw in a chamber-type biofermenter. The operation of an experimental plant that simulates this process was described. A process optimization criterion was established, its values were determined for each of the pollutants – ammonia and hydrogen sulfide. The maximum purification efficiency for ammonia was 92%, achieved at 47% moisture content of the filtering material and 58% compost weight parts at 30 °C. For hydrogen sulfide, the maximum purification efficiency was 95%, achieved at 50% moisture content of the filtering material and 52% compost weight part at 28 °C.
Rocznik
Strony
232--239
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
  • Michurinsk State Agrarian University, Ulitsa Internatsional'naya, 101, Michurinsk, Tambov Oblast, 393740, Russia
  • Michurinsk State Agrarian University, Ulitsa Internatsional'naya, 101, Michurinsk, Tambov Oblast, 393740, Russia
  • Michurinsk State Agrarian University, Ulitsa Internatsional'naya, 101, Michurinsk, Tambov Oblast, 393740, Russia
  • Michurinsk State Agrarian University, Ulitsa Internatsional'naya, 101, Michurinsk, Tambov Oblast, 393740, Russia
  • Michurinsk State Agrarian University, Ulitsa Internatsional'naya, 101, Michurinsk, Tambov Oblast, 393740, Russia
Bibliografia
  • 1. Klimat, ekologiya, selskoe hozyaistvo Еvrazii [Climate, ecology, agriculture of Eurasia] (2014): Proceedings of the III International Scientific and Practical Conference dedicated to the 80th anniversary of the IGSA (27–29 May 2014). Part I. Irkutsk: Izd-vo IrGSKHA, pp. 258.
  • 2. Krivolapov I.P., Manaenkov K.A., Shcherbakov S.Yu. Koldin M.S. 2018. Opredelenie harakteristik filtruyushchego materiala biologicheskih filtrov pri pererabotke othodov zhivotnovodstva. Agroprodovolstvennaya politika Rossii [Characterization of the filtering material of biofilters in the processing of animal waste. Agricultural and Food Policy of Russia]. Tyumen: Izd-vo OOO «Uralskii nauchnoissledovatelskii institut ekonomicheskoi i prodovolstvennoi bezopasnosti», 5, 52-56.
  • 3. Gosudarstvennaya programma razvitiya selskogo hozyaistva i regulirovaniya rynkov selskohozyaistvennoi produktsii, syrya i prodovolstviya na 2013–2020 gg. utverzhdena postanovleniem Pravitelstva Rossiiskoi Federatsii ot 14 iyulya 2012 g. N 717 [The state program for the development of agriculture and regulation of the markets for agricultural products, raw materials and food for 2013–2020. approved by the Decree of the Government of the Russian Federation dated July 14, 2012 N 717]. Available: http://www.gosprog.ru/gp-razvitiya-selskogo-hozyaystva/
  • 4. Crittenden John C., Mihelcic James R., Michigan Hebi L. 2002. Manual biofilter design software. Technological University 1400 Townsend Drive Houghton, MI 49931, pp.105–109.
  • 5. Nicolai R., Lefers R. 2005. Biofilters. Used to reduce emissions from livestock housing – a literature review. South Dakota State University, p. 8
  • 6. Richard N., Schmidt D. 2005. Biofilters. South Dakota State University college of agriculture & Biological sciences cooperative extension service, pp. 38–43.
  • 7. Krivolapov, I.P., Shcherbakov S.Yu., Koldin, M.S. 2016. The results of the research on the efficiency of air purification from ammonia and hydrogen sulfide with peat-humus filtering material. Ecology, Environment and Conservation, 22, Suppl. Issue, 47–50.
  • 8. Krivolapov I.P., Mironov V.V. 2012. Issledovaniya sostava gazovyh vybrosov pri kompostirovanii. In: Voprosy sovremennoi nauki i praktiki: Universitet im. V.I. Vernadskogo [Studies of the composition of gas emissions during composting. In: Questions of modern science and practice: Vernadsky University]. Tambov: Izd-vo TGTU, Vol. 1, 336-341.
  • 9. Vinarov A.Yu., Sadyrov O.A., Lobanov F.I. 1986. Ochistka i dezodoratsiya promyshlennyh gazov s pomoshchyu mikroorganizmov. In: Itogi nauki i tekhniki. Seriya Biotekhnologiya [Cleaning and deodorization of industrial gases with the help of microorganisms. In: Results of science and technology. Biotechnology series]. Moscow: izd-vo VINITI AN SSSR, Vol. 27.
  • 10. Krivolapov I.P. 2011. Metodika eksperimentalnogo issledovaniya biologicheskoi filtratsii gazovyh vybrosov [Methods of experimental study of biofiltration of gas emissions]. Vestnik Michurinskogo gosudarstvennogo agrarnogo universiteta. Part 2, pp. 45-49.
  • 11. Kafarov V.V. 1979. Osnovy massoperedachi [Basics of mass transfer]. Edition 3, updated. Moscow: Vysshaya shkola.
  • 12. Zavrazhnov A.I., Braliev M.K., Mironov V.V. 2014. Sovremennye tekhnologii i tekhnicheskie sredstva udaleniya hraneniya navoza i proizvodstva vysokokachestvennyh organicheskih udobrenii: Uchebnoe posobie [Modern technologies and technical means of manure storage removal and production of high-quality organic fertilizers: Tutorial]. Uralsk, Zapadno – Kazahstanskii agrarno – tekhnicheskii universitet imeni Zhangir Khana.
  • 13. Bykov V.A. 1985. Raschet protsessov mikrobiologicheskih proizvodstv [Calculation of the processes of microbiological production]. Kazan: Tekhnika.
  • 14. Krivolapov I.P. Shcherbakov S.Yu., Kudenko V.B., Aksenovskii A.V., Milovanov O.V. 2016. Opisanie osnovnyh modelei filtratsii gazov v zhidkostnoi plenke biologicheskogo filtra [Description of the main models of gas filtration in a liquid film of a biofilter]. Collection of scientific papers on the 85th anniversary of the Michurinsky State Agrarian University: in IV volumes, volume II: Technical sciences., ed. by V.A. Babushkin. Michurinsk: Izd-vo Michurinskogo GAU, pp. 27-31.
  • 15. Krivolapov I.P., Shcherbakov S.Yu., Koldin M.S. 2016. Issledovaniya effektivnosti ochistki vozduha v zhivotnovodcheskih kompleksah ot ammiaka i serovodoroda [Research on the efficiency of air purification in livestock farms from ammonia and hydrogen sulfide]. Tekhnologii pishchevoi i pererabatyvayushchei promyshlennosti APK – Produkty zdorovogo pitaniya, 3 (11), 9-18.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1f272a02-1223-40ca-ac2c-cb0e9ab920e3
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